DE1891700U - PIPE FOR AIR CONDITIONING SYSTEM. - Google Patents

Description

Line pipe for ventilation systems

The subject of this! Inflation is a surprisingly progressive one Line pipe for ventilation systems, which characterized by a new type of air passage *

The air outlets of the air-technical systems of the state of the art are afflicted with disadvantages, which are overcome according to the present innovation.The disadvantage of the state of the art is that there is often a draft at the exit points of the air outlets and that no uniform air distribution can be achieved can. Furthermore, with the ventilation systems of the state of the art, you can often only run at high pressure if a so-called relaxation (= transformation) takes place before the air exits the pipe, for which complex and space-consuming relaxation boxes must be provided to understand a step-down of the excessive pressure. Another specialist part of the prior art consists in the fact that undesired noises at the air passages often have to be accepted.

In contrast, the line pipe according to the innovation has the following advantages: Ss there is no tension nuisance, it is one even air distribution over the entire exit surface ensures that an additional filter effect is achieved for the exiting air. The channel noises are turned on

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Minimum Terringert »There is still a special advantage in the fact that you can drive at high pressure without special Relaxation devices such as relaxation boxes must be provided. Bs has proven in practice that especially in shelters, preferably in oar systems, only driving at high pressure, that is to say with air pressure from 100 to 1,000 mm water column makes technical sense # The line pipe according to the innovation is therefore also particularly suitable for installation in tunnels that are intended as shelters. It was said above that an even air distribution can be achieved on the entire exit area, including it should be understood that the resistance along the pipe can practically be neglected. The laughing part of the line pipes of the The state of the (technology also consisted in the fact that the Frictional resistance in the pipe caused a pressure drop, which resulted in an uneven air distribution or an uneven air distribution Caused air leakage at the individual air outlets.

Generally speaking, lieder print systems require a lot of space, which is why high pressure systems are preferred, which up to now has only often failed because of the additional equipment required up to now, such as transformers and the like. With the installation of the new line pipe now also high-pressure systems are economical and therefore more interesting than before, which is particularly emphasized by the fact that the high-pressure systems have even less space than before need what, as already detailed above, in particular is of the greatest importance for the construction of the shelter.

According to your control, a pipe for ventilation systems is proposed, which is characterized in that it consists at least partially of porous material. The conduit itself can have all possible cross-sectional shapes and cross-sectional sizes and wall thicknesses that are conceivable for conduits.

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Each of a preferred embodiment of the innovation according to the invention ! Line pipe for air-common systems exist Air passages made of particles, for example made of yuarz- and / or plastic granules, the particles optionally are connected to one another by adhesives known per se. However, the presence of such a binder is not essential required »The condition of the air outlets corresponds for example, the nature of the so-called frit funnel from the Lab Oratorium praxis or the also to the State-of-the-art frit tubes from laboratory practice ♦

On the basis of the accompanying figures are preferred embodiments Price increase shown, Figure 1 shows a conduit for ventilation systems according to the present invention "which from pressed ** and possibly bonded particles exists, between which a huge number of tiny capillaries are contained, through which the air from inside the Pipe flows outward Figure 2 shows an embodiment in the case of a pipe which is not air-permeable per se and which is made, for example, of metallic material exists, so-called air passage windows in the form of round or angular panes are inserted «

In Figure 1, 1 is the porous pipe wall, which serves as air through its entire length and 2 denotes the inner line, from which the air flows through the wall 1 to the outside * 3 denotes the individual / structural elements of the pipe, between which are the Kalrülaren, and the are optionally glued to one another, but they are also bonded to one another by adhesion (for example, by the action of increased pressure) can be connected «The individual particles 3 are preferably made of quartz granules and / or plastic granules, which can be present in different grain sizes. With 4 in Figure 1 is a conventional pipeline,

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which can optionally be connected to the tube according to the innovation shown.

In FiguE 2 is another embodiment of the innovation according to the invention Line pipe shown, in which the pipe 5 from conventional material has round or angular air passages * f, which are made of porous material, its nature is described in detail above, consist ", ^ in Figure 2 is the round air passage with 6 and the angular air passage with 7.

naturally, these disks 6 and 7 can have any thickness have, whereby a dimensioning of the inherent resistance of these air passages against ^ the overpressure in the pipe 5 is possible, which should be made variable if necessary.

For the sake of greater clarity, the line pipe is according to Figure 1 shown broken open to the rope.

Claims (6)

^ ¥ MUO2 Protection claims 1,) Line pipe for ventilation systems, characterized in that that it consists at least partially of porous material. 2.) Line pipe according to .Anspruch 1, characterized in that it is combined with conventional line pipes for ventilation systems » 3.) Line pipe according to .Anspruch 1 and 2, characterized in that that it consists of conventional material, in the walls of which porous disks of any shape are inserted » 4) Line pipe according to. Claims 1 to 3, characterized in that that the porous material consists of quartz granules, which may be glued together. 5) pipe according to claim 1 to 3, characterized in that the porous material consists of plastic granules, which are optionally glued together, 6.) Line pipe according to claim 1 to 5, characterized in that that the porous material consists of granules in different grain sizes.